floor mats comprising two layers bonded together with an undulating boundary between them. The surface color and/or surface texture of the first layer being different from the surface color and/or surface texture of the second layer. The mats having an interlocking periphery boundary adapted so the mats can be interlocked with adjoining mats to form a continuous planar mat flooring.
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1. A reversible floor matting comprising:
a body with an interlocking peripheral wall having a plurality of teeth and a plurality of receiving slots, the body comprising a first layer and a second layer that have the same coefficient of thermal expansion;
wherein the first layer has a first color and the second layer has a second color that is different than the first color; and
wherein the first layer and second layer are bound together to form an undulating inner boundary therebetween.
2. The floor matting according to
3. The floor matting according to
4. The floor matting according to
5. The floor matting of
6. The floor matting of
7. The floor matting of
8. The floor matting of
9. The floor matting of
10. The floor matting of
14. The floor matting of
15. The floor matting of
16. The floor matting of
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This application is a continuation of U.S. patent application Ser. No. 11/105,182 filed Apr. 13, 2005 which is a continuation-in-part of U.S. patent application Ser. No. 29/203,027, filed Apr. 8, 2004 issued Nov. 21, 2006 under Pat. No. D532238, both of which are incorporated herein by reference in their entirety.
The present invention is directed to floor matting. More specifically, the present invention is directed to resilient floor matting which can be used in playroom environments, athletic environments such as for gymnastics or tumbling, and for environments where cushioning from the hard undersurface is desirable, such as a studio, or workplace where people are standing for prolonged periods. Artists, draftsmen, wood workers, printers, surgeons, dentists, retail sales people, and the like, are subject to standing on hard surfaces for prolonged periods.
Resilient floor matting has been used extensively for thousands of years. Fiber matting was first used, then came carpeting. Between the 1900's and 1960's, canvas mats filled with batting were commonly used for gymnastics and tumbling. In the last two centuries, floor matting of cork has been extensively used to absorb the pounding forces of the feet on hard surfaces. In the last 30 years mats prepared from polymeric foam has become common. For purposes of convenience, such as retail sale, packaging, transportation, and the like, the mats are sold in roll form, such a 4′×8′ sheets, or as tiles measuring anywhere from 6″×6″ up to 3′×4′. Some floor matting tiles, especially large dimension tiles, are merely laid down with adjacent tiles butting up against one another. For smaller tiles, there is an interlocking arrangement. Some tiles have a periphery of interlocking teeth which dovetail with the peripheral teeth of adjoining tiles. Prior art tiles are one color and/or have a textured surface on one side only. The bottom surface is normally smooth and flat, and the top surface is smooth and flat or textured, depending upon the taste of the user. The prior art has attempted to make matting with one color on one side and another color on the other side, but without success. Delamination of two or more mat layers can be a problem especially with use or when there are temperature changes, such as from ambient temperature to below freezing or from ambient temperature to an elevated temperature. In addition, delamination can occur when the mats are subject to physical forces, such as with tumbling, or gymnastics, or the dropping of articles, such as weights, on the matting. In addition, running and stopping or quick turns on matting, applies shear forces to each of the layers which can lead to delamination of the layers.
With use, the working surface or top surface of the floor matting can become disfigured with stains from dirt, paint, ink, and the like, physically disfigured can cause cuts, abrasions, and indentions in the floor matting. The floor matting can be reversed but this can be unsatisfactory if the bottom surface of the matting is smooth and the top surface of the matting is textured, or vice versa. When it is reversed, the textured side becomes the base surface and the original base surface becomes the top working surface. The new working surface will not be textured.
Resilient matting, such as foam elastomeric matting, is normally anywhere from ⅜″ to ¾″ in thickness and around 2′×2′ square. To cover a room 10′×10′, 25 mat tiles are normally required.
Solid resilient matting can be quite heavy and voluminous when stacked. Polymeric foam elastomeric resilient matting is relatively light, but it is also voluminous when stacked. For example, matting (2′×2′×½″) for 12′×12′ coverage when stacked forms a cube 2′×2′×1½′. For retail sales, matting can take up a great deal of retail space especially when several textures and several colors are being offered. For example, if four colors are available and four textures are available, the retail outlet has to carry sixteen varieties of floor matting. The number of varieties could be cut in half by having both surfaces of the matting textured in different textures and/or different colors. Thus, if four colors are offered in four textures for polymeric foam matting, the matting on one surface having one color and one texture and the other surface having another color and another texture, only eight varieties of matting would be required at the retail outlet.
The floor matting of the present invention comprises a body having first and second layers, each layer having an outer surface and an inner surface, the inner surfaces of the first and second layers are bound together to form an inner boundary, the outer surfaces constituting a first and second surfaces of the body, the first and second surfaces being generally parallel to one another but not generally parallel to the boundary; the first and second surfaces having different surface textures or design and/or different colors, the body bounded by an interlocking peripheral wall.
The body is a planar structure and from a plan view, it can have a rectangular shape, triangular shape, square shape or hexagonal shape. The interlocking peripheral wall has a series of teeth and receiving slots in alternating positions. The teeth dovetail with the receiving slots of adjacent floor mats to lock the floor mats together.
The thickness of the body is generally constant over its width and length. This is important because it permits a plurality of floor mats to be joined together to form a continuous planar surface. Although the thickness of the body is generally constant, the thickness of the first and second layers is preferably not constant. The reason for this is that the boundary between the first layer and the second layer is undulating. If one layer was peeled away to show the boundary which follows the inner surface of the remaining layer, the topography of the boundary would look similar to rolling hills and valleys.
The undulating nonplanar boundary resists delamination of the two layers. By having an undulating boundary between the two layers, shear forces and compressive forces applied to one layer are partially converted to compressive forces and tension forces. For example, if one layer is placed in shear with respect to the other layer with an undulating boundary, in certain areas of the undulating boundary shear forces are going to be partially converted to compressive forces, and in other areas, the shear forces are going to be converted into tension forces. This helps to minimize delamination between the two layers.
Referring to
As described above, the texture of the first surface 16A can be different than the texture of the second surface 16B. Similarly, the color of the first layer and the first surface 16A can be different than the color of the second layer 14B. Thus, the present mats give the purchaser the opportunity to have a selection of colors and/or a selection of textures. In addition, it permits the purchaser to form a checkerboard pattern or other pattern, assuming enough tiles are utilized, utilizing the different textures and/or colors of the mat tiles.
Preferably, the mats are made from resilient polymeric materials, such as natural or synthetic rubber, and most preferably from foam elastomeric material, such as polyethylene foam, polyurethane foam, EVA-PE foam (ethylene vinyl acetate-polyethylene foam elastomer), and EVA foam (ethylene vinyl acetate foam).
Preferably, the elastomeric mats are made from a combination of virgin polymer and recycle polymer, such as virgin EVA polymer and a mix of virgin and recycle PE (polyethylene) polymer. The blend of EVA and virgin and recycle PE are compounded together and heated to a temperature below the polymer foaming temperature and pressed into thin sheets through rollers of uniform thickness within uniform temperatures of a range of 5° C.; preferably within a range of 1° C. The sheets are 5 to 10 millimeters in thickness. Other thicknesses can be employed. The sheets are sandwiched together, normally about six sheets to each mat and placed in trays having a bottom surface with a die or mold for the texture and a top plate. The top plate may also have a die or mold for the texture for the other surface. The tray with the sandwich of layers of the raw composition and the top plate are pressed in a press and heated to a temperature to permit the elastomer to foam and expand. The press is required to keep the distance between the tray and the top plate constant to yield elastomeric foam mat of a predetermined thickness. Preferably, the three like sheets have virtually identical compositions and blend together to form one layer of the mat. The two mat layers have slightly different compositions because their respective sheets are made from different raw compositions (the differences can be slight) at different times.
The virgin PE and the recycle PE have different rates of thermal expansion and different rates of foaming. The raw compositions of the sheets are restricted in vertical movement and unrestricted in horizontal movement between the tray and the top plate in the press when heated. In the preferred embodiment, three layers of the raw composition will have one color and the other three layers of composition will have another color. Thus, one side of the mat may be red and the other side may be black, etc. The die in the bottom of the tray places one texture on one surface of the mat, and if the top plate has a die, it places a texture on the other surface of the mat. Preferably, the two textures are different although they can be the same. After the foaming reaction is completed by the heating in the press, the tray and the top plate are removed from the press and the unfinished mat is removed from the tray. The mat is allowed to cool and then it is passed to a cutting machine wherein the mat with the interlocking periphery is cut out of the unfinished mat. The mat is now complete.
In those cases where the top plate does not have a die for the texture, the mat comes out of the press with a texture only on one surface and a smooth planar other surface. The mat can be sent to a roller mill having a cool roller and a heated roller with a die attached thereto. The heated roller with die only heats the surface not having a texture permitting the heated roller with die to texture the other surface of the mat. The textured surface is kept cool by the cool roller. The mat is passed between two rollers and the roller that touches the texture surface is cool, whereas the roller with the die to give texture to the other surface is hot. The cooling roller prevents destruction or damage to the textured surface created in the press.
The above invention is not restricted to the specific embodiments disclosed herein; modifications and other embodiments of the invention are within the scope of the invention.
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